Litcius/Paper detail

Multiplexing meta-hologram with separate control of amplitude and phase

Rao Fu, Xin Shan, Liangui Deng, Qi Dai, Zhiqiang Guan, Zile Li, Guoxing Zheng

2021Optics Express30 citationsDOIOpen Access PDF

Abstract

Metasurfaces have shown their unique capabilities to manipulate the phase and/or amplitude properties of incident light at the subwavelength scale, which provides an effective approach for constructing amplitude-only, phase-only or even complexed amplitude meta-devices with high resolution. Most of meta-devices control the amplitude and/or phase of the incident light with the same polarization state; however, separately controlling of amplitude and phase of the incident light with different polarization states can provide a new degree of freedom for improving the information capacity of metasurfaces and designing multifunctional meta-devices. Herein, we combine the amplitude manipulation and geometric phase manipulation by only reconfiguring the orientation angle of the nanostructure and present a single-sized design strategy for a multiplexing meta-hologram which plays the dual roles: a continuous amplitude-only meta-device and a two-step phase-only meta-device. Two different modulation types can be readily switched merely by polarization controls. Our approach opens up the possibilities for separately and independently controlling of amplitude and phase of light to construct a multiplexing meta-hologram with a single-sized metasurface, which can contribute to the advanced research and applications in multi-folded optical anti-counterfeiting, optical information hiding and optical information encoding.

Topics & Concepts

AmplitudeHolographyMultiplexingOpticsPolarization (electrochemistry)Amplitude modulationPhase modulationPhase (matter)Computer sciencePhysicsBandwidth (computing)Frequency modulationTelecommunicationsPhase noisePhysical chemistryChemistryQuantum mechanicsMetamaterials and Metasurfaces ApplicationsAdvanced Antenna and Metasurface TechnologiesAntenna Design and Analysis